Gold-catalyzed fluorination of alkynes/allenes: mechanistic explanations and reaction scope.

IF 2.9 3区化学 Q1 CHEMISTRY, ORGANIC Organic & Biomolecular Chemistry Pub Date : 2024-11-08 DOI:10.1039/d4ob01579g

Deblina Singha Roy, Yogesh Bhaskar Singh Tanwer, Snigdha Rani Patra, Shivam Kumar, Sabyasachi Bhunia, Debjit Das

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Abstract

Since the beginning of this century, there has been a great deal of research on homogeneous gold-catalyzed alkyne fluorination due to the precious values of fluorinated scaffolds in many bioactive natural products, drugs, and agrochemicals. This area of research, which originally took advantage of gold's mild Lewis acidity and tendency to form π-complexes with alkynes, has gained new momentum after Sadighi's discovery in 2007 of Au-catalyzed hydrofluorination of internal alkynes. The methods have enabled direct access to valuable fluoroalkanes, fluoroalkenes, α-fluorocarbonyls, and fluorinated carbo- and hetero-cycles in one pot from readily available alkyne precursors. Both nucleophilic and electrophilic fluorination modes with versatile reactivity have been used to achieve several new cascade reactions. This study covers the literature reports published since 2007 and provides a comprehensive summary of the methods, applications, and mechanistic insights into gold-catalyzed alkyne fluorination using electrophilic and nucleophilic fluorinating reagents.

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金催化的炔/烯氟化反应：机理解释和反应范围。

自本世纪初以来，由于含氟支架在许多具有生物活性的天然产品、药物和农用化学品中的宝贵价值，有关均相金催化炔烃氟化的研究层出不穷。这一领域的研究最初是利用金的温和路易斯酸性和与炔烃形成 π-络合物的倾向，在 Sadighi 于 2007 年发现金催化内部炔烃的氢氟化反应后，这一研究获得了新的动力。通过这些方法，可以直接从现成的炔烃前体中一举获得有价值的氟烷、氟烯、α-氟羰基以及氟化碳环和杂环。具有多功能反应性的亲核和亲电氟化模式已被用于实现多个新的级联反应。本研究涵盖了 2007 年以来发表的文献报告，全面总结了使用亲电和亲核氟化试剂进行金催化炔烃氟化反应的方法、应用和机理。

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